f.GPPT: Canopy scale GPP calculation, with leaf energy budget
In TESTgroup-BNL/LeafGasExchange: A package containing functions for fitting photosynthetic response curves, simulat leaf and canopy photosynthesis
View source: R/Canopy_scaling.R
f.GPPT R Documentation
Canopy scale GPP calculation, with leaf energy budget
Description
Generic function to calculate the GPP within a forest (Here GPP = sum of Anet at the canopy level, so it takes into account the leaf mitochondrial respiration)
Usage
f.GPPT(
meteo_hourly,
Vcmax_Profile,
Jmax_Profile,
Rd_Profile,
Tp_Profile,
g0_Profile,
g1_Profile,
gsmin,
canopy,
Patm = 100,
...
)
Arguments
meteo_hourly
See f.canopy.interception
Vcmax_Profile
Vector of the values of Vcmax at the reference temperature at each layer of the canopy
Jmax_Profile
Vector of the values of Jmax at the reference temperature at each layer of the canopy
Rd_Profile
Vector of the values of Rd at the reference temperature at each layer of the canopy
Tp_Profile
Vector of the values of Tp at the reference temperature at each layer of the canopy
g0_Profile
Vector of the values of g0 at the reference temperature at each layer of the canopy
g1_Profile
Vector of the values of g1 at the reference temperature at each layer of the canopy
gsmin
Minimum stomatal conductance for water to consider. This value will be used as the minimum conductance value to avoid 0 and negative values obtained from the coupled assimilation and conductance models
canopy
Description of the canopy interception (see canopy_interception function)
Patm
Atmospheric pressure (used to calculate the transpiration)
...
Other parameters of the photosynthetic model, without gradients, for example curvature factor, quantum yield.. see the help of f.make.param()
Examples
#See github vignettes
TESTgroup-BNL/LeafGasExchange documentation built on May 17, 2024, 8:11 p.m.
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View source: R/Canopy_scaling.R
| f.GPPT | R Documentation |
Canopy scale GPP calculation, with leaf energy budget
Description
Generic function to calculate the GPP within a forest (Here GPP = sum of Anet at the canopy level, so it takes into account the leaf mitochondrial respiration)
Usage
f.GPPT(
meteo_hourly,
Vcmax_Profile,
Jmax_Profile,
Rd_Profile,
Tp_Profile,
g0_Profile,
g1_Profile,
gsmin,
canopy,
Patm = 100,
...
)
Arguments
meteo_hourly |
See f.canopy.interception |
Vcmax_Profile |
Vector of the values of Vcmax at the reference temperature at each layer of the canopy |
Jmax_Profile |
Vector of the values of Jmax at the reference temperature at each layer of the canopy |
Rd_Profile |
Vector of the values of Rd at the reference temperature at each layer of the canopy |
Tp_Profile |
Vector of the values of Tp at the reference temperature at each layer of the canopy |
g0_Profile |
Vector of the values of g0 at the reference temperature at each layer of the canopy |
g1_Profile |
Vector of the values of g1 at the reference temperature at each layer of the canopy |
gsmin |
Minimum stomatal conductance for water to consider. This value will be used as the minimum conductance value to avoid 0 and negative values obtained from the coupled assimilation and conductance models |
canopy |
Description of the canopy interception (see canopy_interception function) |
Patm |
Atmospheric pressure (used to calculate the transpiration) |
... |
Other parameters of the photosynthetic model, without gradients, for example curvature factor, quantum yield.. see the help of f.make.param() |
Examples
#See github vignettes
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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